sanguis::server::weapons::states::castpoint::castpoint( my_context _ctx ) : my_base( _ctx ), attack_time_( sanguis::diff_timer::parameters( this->context< sanguis::server::weapons::weapon >().diff_clock(), this->context< sanguis::server::weapons::weapon >().cast_point().get() / this->context< sanguis::server::weapons::weapon >().owner().ias().get() ) ), cancelled_( false ) { this->context< sanguis::server::weapons::weapon >().weapon_status( sanguis::weapon_status::attacking ); FCPPT_LOG_VERBOSE( this->context< sanguis::server::weapons::weapon >().log().main_log(), fcppt::log::_ << FCPPT_TEXT("castpoint: ") << this ); }
void alda::net::client::detail::object_impl::write_handler( boost::system::error_code const &_error, std::size_t const _bytes ) { if( _error ) { this->handle_error( FCPPT_TEXT("write "), _error ); return; } FCPPT_LOG_VERBOSE( log_, fcppt::log::_ << FCPPT_TEXT("wrote ") << _bytes << FCPPT_TEXT(" bytes") ); send_buffer_.bytes_sent( _bytes ); if( !send_buffer_.empty() ) this->send_data(); else sending_ = false; }
void alda::net::client::detail::object_impl::read_handler( boost::system::error_code const &_error, std::size_t const _bytes ) { if( _error ) { this->handle_error( FCPPT_TEXT("read"), _error ); return; } receive_buffer_.bytes_received( _bytes ); FCPPT_LOG_VERBOSE( log_, fcppt::log::_ << FCPPT_TEXT("read ") << _bytes << FCPPT_TEXT(" bytes.") ); data_signal_( receive_buffer_ ); this->receive_data(); }
sge::projectile::shape::detail::scalar_container sge::projectile::impl::shape::triangle_scalars( fcppt::log::object &_log, sge::projectile::shape::triangle_sequence const &_triangles ) { sge::projectile::shape::detail::scalar_container scalars( _triangles.size() * 8u * 3u * 3u ); FCPPT_LOG_DEBUG( _log, fcppt::log::_ << FCPPT_TEXT("constructing triangle mesh with ") << _triangles.size() << FCPPT_TEXT(" triangles")); sge::projectile::shape::detail::scalar_container::iterator current_scalar = scalars.begin(); // TODO: Find a better way to express this for( sge::projectile::triangle const &triangle : _triangles ) { typedef std::array< btScalar, 2 > extrusion_array; extrusion_array const extrusion_depth{{ static_cast<btScalar>(-sge::projectile::impl::object_extrusion_depth()/2), static_cast<btScalar>(sge::projectile::impl::object_extrusion_depth()/2) }}; for( btScalar const current_z : extrusion_depth ) { FCPPT_LOG_VERBOSE( _log, fcppt::log::_ << FCPPT_TEXT("triangle begin")); for( auto const ¤t_triangle_point : triangle ) { FCPPT_LOG_VERBOSE( _log, fcppt::log::_ << FCPPT_TEXT("adding point ") << current_triangle_point[0] << FCPPT_TEXT(',') << current_triangle_point[1] << FCPPT_TEXT(',') << current_z); *current_scalar++ = current_triangle_point[0]; *current_scalar++ = current_triangle_point[1]; *current_scalar++ = current_z; } FCPPT_LOG_VERBOSE( _log, fcppt::log::_ << FCPPT_TEXT("triangle end")); } } return scalars; }